Abstract
We report experimental and theoretical studies on the magnetic moment and hyperfine field of isolated Mo impurities in an antiferromagnetic Cr host. The magnetic response of 92,94Mo, measured by means of the time differential perturbed angular distribution (TDPAD) technique, show the saturation hyperfine field B hf ( 0 ) to be − 4.7 T . In addition, we find evidence of short range antiferromagnetic spin correlation above T N , revealed from the observation of large B hf values at temperatures far above T N . Our ab initio calculations, based on the generalized gradient approximation (GGA) of density functional theory (DFT), yield an induced magnetic moment of 0.45 μ B for the Mo impurity in Cr. The magnitude of the calculated hyperfine field B hf cal = − 3.35 T closely agrees with the experimental value. The results presented in this work would be helpful for a common understanding of hyperfine fields of impurity atoms in ferro- and antiferromagnetic materials.
Published Version
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